/*
 * VARCem   Virtual ARchaeological Computer EMulator.
 *          An emulator of (mostly) x86-based PC systems and devices,
 *          using the ISA,EISA,VLB,MCA  and PCI system buses, roughly
 *          spanning the era between 1981 and 1995.
 *
 *          Implementation of a Clock/RTC Card for the ISA PC/XT.
 *
 *          Systems starting with the PC/XT had, by default, a realtime
 *          clock and NVR chip on the mainboard. The BIOS stored config
 *          data in the NVR, and the system could maintain time and date
 *          using the RTC.
 *
 *          Originally, PC systems did not have this, and they first did
 *          show up in non-IBM clone systems. Shortly after, expansion
 *          cards with this function became available for the PC's (ISA)
 *          bus, and they came in many forms and designs.
 *
 *          This implementation offers some of those boards:
 *
 *            Everex EV-170 (using NatSemi MM58167 chip)
 *            DTK PII-147 Hexa I/O Plus (using UMC 82C8167 chip)
 *
 *          and more will follow as time permits.
 *
 * NOTE:    The IRQ functionalities have been implemented, but not yet
 *          tested, as I need to write test software for them first :)
 *
 *
 *
 * Authors: Fred N. van Kempen, <decwiz@yahoo.com>
 *
 *          Copyright 2018 Fred N. van Kempen.
 *
 *          Redistribution and  use  in source  and binary forms, with
 *          or  without modification, are permitted  provided that the
 *          following conditions are met:
 *
 *          1. Redistributions of  source  code must retain the entire
 *             above notice, this list of conditions and the following
 *             disclaimer.
 *
 *          2. Redistributions in binary form must reproduce the above
 *             copyright  notice,  this list  of  conditions  and  the
 *             following disclaimer in  the documentation and/or other
 *             materials provided with the distribution.
 *
 *          3. Neither the  name of the copyright holder nor the names
 *             of  its  contributors may be used to endorse or promote
 *             products  derived from  this  software without specific
 *             prior written permission.
 *
 * THIS SOFTWARE  IS  PROVIDED BY THE  COPYRIGHT  HOLDERS AND CONTRIBUTORS
 * "AS IS" AND  ANY EXPRESS  OR  IMPLIED  WARRANTIES,  INCLUDING, BUT  NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
 * PARTICULAR PURPOSE  ARE  DISCLAIMED. IN  NO  EVENT  SHALL THE COPYRIGHT
 * HOLDER OR  CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL,  EXEMPLARY,  OR  CONSEQUENTIAL  DAMAGES  (INCLUDING,  BUT  NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE  GOODS OR SERVICES;  LOSS OF USE,
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED  AND ON  ANY
 * THEORY OF  LIABILITY, WHETHER IN  CONTRACT, STRICT  LIABILITY, OR  TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING  IN ANY  WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */
#include <stdarg.h>
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <stdlib.h>
#include <time.h>
#include <wchar.h>
#define HAVE_STDARG_H
#include <86box/86box.h>
#include "cpu.h"
#include <86box/timer.h>
#include <86box/machine.h>
#include <86box/io.h>
#include <86box/device.h>
#include <86box/nvr.h>
#include <86box/ui.h>
#include <86box/plat.h>
#include <86box/pic.h>
#include <86box/isartc.h>

#define ISARTC_EV170  0
#define ISARTC_DTK    1
#define ISARTC_P5PAK  2
#define ISARTC_A6PAK  3
#define ISARTC_VENDEX 4

#define ISARTC_DEBUG  0

typedef struct rtcdev_t {
    const char *name;  /* board name */
    uint8_t     board; /* board type */

    uint8_t flags;        /* various flags */
#define FLAG_YEAR80  0x01 /* YEAR byte is base-80 */
#define FLAG_YEARBCD 0x02 /* YEAR byte is in BCD */

    int8_t   irq; /* configured IRQ channel */
    int8_t   base_addrsz;
    uint32_t base_addr; /* configured I/O address */

    /* Fields for the specific driver. */
    void    (*f_wr)(uint16_t, uint8_t, void *);
    uint8_t (*f_rd)(uint16_t, void *);
    int8_t    year; /* register for YEAR value */
    char      pad[3];

    nvr_t nvr; /* RTC/NVR */
} rtcdev_t;

/************************************************************************
 *                                                                      *
 *            Driver for the NatSemi MM58167 chip.                      *
 *                                                                      *
 ************************************************************************/
#define MM67_REGS 32

/* Define the RTC chip registers - see datasheet, pg4. */
#define MM67_MSEC        0    /* milliseconds */
#define MM67_HUNTEN      1    /* hundredths/tenths of seconds */
#define MM67_SEC         2    /* seconds */
#define MM67_MIN         3    /* minutes */
#define MM67_HOUR        4    /* hours */
#define MM67_DOW         5    /* day of the week */
#define MM67_DOM         6    /* day of the month */
#define MM67_MON         7    /* month */
#define MM67_AL_MSEC     8    /* milliseconds */
#define MM67_AL_HUNTEN   9    /* hundredths/tenths of seconds */
#define MM67_AL_SEC      10   /* seconds */
#define MM67_AL_MIN      11   /* minutes */
#define MM67_AL_HOUR     12   /* hours */
#define MM67_AL_DOW      13   /* day of the week */
#define MM67_AL_DOM      14   /* day of the month */
#define MM67_AL_MON      15   /* month */
#define MM67_AL_DONTCARE 0xc0 /* always match in compare */
#define MM67_ISTAT       16   /* IRQ status */
#define MM67_ICTRL       17   /* IRQ control */
#define MM67INT_COMPARE  0x01 /*  Compare */
#define MM67INT_TENTH    0x02 /*  Tenth */
#define MM67INT_SEC      0x04 /*  Second */
#define MM67INT_MIN      0x08 /*  Minute */
#define MM67INT_HOUR     0x10 /*  Hour */
#define MM67INT_DAY      0x20 /*  Day */
#define MM67INT_WEEK     0x40 /*  Week */
#define MM67INT_MON      0x80 /*  Month */
#define MM67_RSTCTR      18   /* reset counters */
#define MM67_RSTRAM      19   /* reset RAM */
#define MM67_STATUS      20   /* status bit */
#define MM67_GOCMD       21   /* GO Command */
#define MM67_STBYIRQ     22   /* standby IRQ */
#define MM67_TEST        31   /* test mode */

#ifdef ENABLE_ISARTC_LOG
int isartc_do_log = ENABLE_ISARTC_LOG;

static void
isartc_log(const char *fmt, ...)
{
    va_list ap;

    if (isartc_do_log) {
        va_start(ap, fmt);
        pclog_ex(fmt, ap);
        va_end(ap);
    }
}
#else
#    define isartc_log(fmt, ...)
#endif

/* Check if the current time matches a set alarm time. */
static int8_t
mm67_chkalrm(nvr_t *nvr, int8_t addr)
{
    return ((nvr->regs[addr - MM67_AL_SEC + MM67_SEC] == nvr->regs[addr]) || ((nvr->regs[addr] & MM67_AL_DONTCARE) == MM67_AL_DONTCARE));
}

/*
 * This is called every second through the NVR/RTC hook.
 *
 * We fake a 'running' RTC by updating its registers on
 * each passing second. Not exactly accurate, but good
 * enough.
 *
 * Note that this code looks nasty because of all the
 * BCD to decimal vv going on.
 */
static void
mm67_tick(nvr_t *nvr)
{
    const rtcdev_t *dev  = (rtcdev_t *) nvr->data;
    uint8_t        *regs = nvr->regs;
    int             mon;
    int             year;
    int             f = 0;

    /* Update and set interrupt if needed. */
    regs[MM67_SEC] = RTC_BCDINC(nvr->regs[MM67_SEC], 1);
    if (regs[MM67_ICTRL] & MM67INT_SEC)
        f = MM67INT_SEC;

    /* Roll over? */
    if (regs[MM67_SEC] >= RTC_BCD(60)) {
        /* Update and set interrupt if needed. */
        regs[MM67_SEC] = RTC_BCD(0);
        regs[MM67_MIN] = RTC_BCDINC(regs[MM67_MIN], 1);
        if (regs[MM67_ICTRL] & MM67INT_MIN)
            f = MM67INT_MIN;

        /* Roll over? */
        if (regs[MM67_MIN] >= RTC_BCD(60)) {
            /* Update and set interrupt if needed. */
            regs[MM67_MIN]  = RTC_BCD(0);
            regs[MM67_HOUR] = RTC_BCDINC(regs[MM67_HOUR], 1);
            if (regs[MM67_ICTRL] & MM67INT_HOUR)
                f = MM67INT_HOUR;

            /* Roll over? */
            if (regs[MM67_HOUR] >= RTC_BCD(24)) {
                /* Update and set interrupt if needed. */
                regs[MM67_HOUR] = RTC_BCD(0);
                regs[MM67_DOW]  = RTC_BCDINC(regs[MM67_DOW], 1);
                if (regs[MM67_ICTRL] & MM67INT_DAY)
                    f = MM67INT_DAY;

                /* Roll over? */
                if (regs[MM67_DOW] > RTC_BCD(7)) {
                    /* Update and set interrupt if needed. */
                    regs[MM67_DOW] = RTC_BCD(1);
                    if (regs[MM67_ICTRL] & MM67INT_WEEK)
                        f = MM67INT_WEEK;
                }

                /* Roll over? */
                regs[MM67_DOM] = RTC_BCDINC(regs[MM67_DOM], 1);
                mon            = RTC_DCB(regs[MM67_MON]);
                if (dev->year != -1) {
                    if (dev->flags & FLAG_YEARBCD)
                        year = RTC_DCB(regs[dev->year]);
                    else
                        year = regs[dev->year];
                    if (dev->flags & FLAG_YEAR80)
                        year += 80;
                } else
                    year = 80;
                year += 1900;
                if (RTC_DCB(regs[MM67_DOM]) > nvr_get_days(mon, year)) {
                    /* Update and set interrupt if needed. */
                    regs[MM67_DOM] = RTC_BCD(1);
                    regs[MM67_MON] = RTC_BCDINC(regs[MM67_MON], 1);
                    if (regs[MM67_ICTRL] & MM67INT_MON)
                        f = MM67INT_MON;

                    /* Roll over? */
                    if (regs[MM67_MON] > RTC_BCD(12)) {
                        /* Update. */
                        regs[MM67_MON] = RTC_BCD(1);
                        if (dev->year != -1) {
                            year++;
                            if (dev->flags & FLAG_YEAR80)
                                year -= 80;

                            if (dev->flags & FLAG_YEARBCD)
                                regs[dev->year] = RTC_BCD(year % 100);
                            else
                                regs[dev->year] = year % 100;
                        }
                    }
                }
            }
        }
    }

    /* Check for programmed alarm interrupt. */
    if (regs[MM67_ICTRL] & MM67INT_COMPARE) {
        year = 1;
        for (mon = MM67_AL_SEC; mon <= MM67_AL_MON; mon++)
            if (mon != dev->year)
                year &= mm67_chkalrm(nvr, mon);
        f = year ? MM67INT_COMPARE : 0x00;
    }

    /* Raise the IRQ if needed (and if we have one..) */
    if (f != 0) {
        regs[MM67_ISTAT] = f;
        if (nvr->irq != -1)
            picint(1 << nvr->irq);
    }
}

/* Get the current NVR time. */
static void
mm67_time_get(nvr_t *nvr, struct tm *tm)
{
    const rtcdev_t *dev  = (rtcdev_t *) nvr->data;
    const uint8_t  *regs = nvr->regs;

    /* NVR is in BCD data mode. */
    tm->tm_sec  = RTC_DCB(regs[MM67_SEC]);
    tm->tm_min  = RTC_DCB(regs[MM67_MIN]);
    tm->tm_hour = RTC_DCB(regs[MM67_HOUR]);
    tm->tm_wday = (RTC_DCB(regs[MM67_DOW]) - 1);
    tm->tm_mday = RTC_DCB(regs[MM67_DOM]);
    tm->tm_mon  = (RTC_DCB(regs[MM67_MON]) - 1);
    if (dev->year != -1) {
        if (dev->flags & FLAG_YEARBCD)
            tm->tm_year = RTC_DCB(regs[dev->year]);
        else
            tm->tm_year = regs[dev->year];
        if (dev->flags & FLAG_YEAR80)
            tm->tm_year += 80;
#ifdef MM67_CENTURY
        tm->tm_year += (regs[MM67_CENTURY] * 100) - 1900;
#endif
#if ISARTC_DEBUG > 1
        isartc_log("ISARTC: get_time: year=%i [%02x]\n", tm->tm_year, regs[dev->year]);
#endif
    }
}

/* Set the current NVR time. */
static void
mm67_time_set(nvr_t *nvr, struct tm *tm)
{
    const rtcdev_t *dev  = (rtcdev_t *) nvr->data;
    uint8_t        *regs = nvr->regs;
    int             year;

    /* NVR is in BCD data mode. */
    regs[MM67_SEC]  = RTC_BCD(tm->tm_sec);
    regs[MM67_MIN]  = RTC_BCD(tm->tm_min);
    regs[MM67_HOUR] = RTC_BCD(tm->tm_hour);
    regs[MM67_DOW]  = RTC_BCD(tm->tm_wday + 1);
    regs[MM67_DOM]  = RTC_BCD(tm->tm_mday);
    regs[MM67_MON]  = RTC_BCD(tm->tm_mon + 1);
    if (dev->year != -1) {
        year = tm->tm_year;
        if (dev->flags & FLAG_YEAR80)
            year -= 80;
        if (dev->flags & FLAG_YEARBCD)
            regs[dev->year] = RTC_BCD(year % 100);
        else
            regs[dev->year] = year % 100;
#ifdef MM67_CENTURY
        regs[MM67_CENTURY] = (year + 1900) / 100;
#endif
#if ISARTC_DEBUG > 1
        isartc_log("ISARTC: set_time: [%02x] year=%i (%i)\n", regs[dev->year], year, tm->tm_year);
#endif
    }
}

static void
mm67_start(nvr_t *nvr)
{
    struct tm tm;

    /* Initialize the internal and chip times. */
    if (time_sync) {
        /* Use the internal clock's time. */
        nvr_time_get(&tm);
        mm67_time_set(nvr, &tm);
    } else {
        /* Set the internal clock from the chip time. */
        mm67_time_get(nvr, &tm);
        nvr_time_set(&tm);
    }
}

/* Reset the RTC counters to a sane state. */
static void
mm67_reset(nvr_t *nvr)
{
    /* Initialize the RTC to a known state. */
    for (uint8_t i = MM67_MSEC; i <= MM67_MON; i++)
        nvr->regs[i] = RTC_BCD(0);
    nvr->regs[MM67_DOW] = RTC_BCD(1);
    nvr->regs[MM67_DOM] = RTC_BCD(1);
    nvr->regs[MM67_MON] = RTC_BCD(1);
}

/* Handle a READ operation from one of our registers. */
static uint8_t
mm67_read(uint16_t port, void *priv)
{
    rtcdev_t *dev = (rtcdev_t *) priv;
    int       reg = port - dev->base_addr;
    uint8_t   ret = 0xff;

    /* This chip is directly mapped on I/O. */
    cycles -= ISA_CYCLES(4);

    switch (reg) {
        case MM67_ISTAT: /* IRQ status (RO) */
            ret                = dev->nvr.regs[reg];
            dev->nvr.regs[reg] = 0x00;
            if (dev->irq != -1)
                picintc(1 << dev->irq);
            break;

        case MM67_AL_MSEC:
            ret                = dev->nvr.regs[reg] & 0xf0;
            break;

        case MM67_AL_DOW:
            ret                = dev->nvr.regs[reg] & 0x0f;
            break;

        default:
            ret = dev->nvr.regs[reg];
            break;
    }

#if ISARTC_DEBUG
    isartc_log("ISARTC: read(%04x) = %02x\n", port - dev->base_addr, ret);
#endif

    return ret;
}

/* Handle a WRITE operation to one of our registers. */
static void
mm67_write(uint16_t port, uint8_t val, void *priv)
{
    rtcdev_t *dev = (rtcdev_t *) priv;
    int       reg = port - dev->base_addr;

#if ISARTC_DEBUG
    isartc_log("ISARTC: write(%04x, %02x)\n", port - dev->base_addr, val);
#endif

    /* This chip is directly mapped on I/O. */
    cycles -= ISA_CYCLES(4);

    switch (reg) {
        case MM67_ISTAT: /* intr status (RO) */
            break;

        case MM67_ICTRL: /* intr control */
            dev->nvr.regs[MM67_ISTAT] = 0x00;
            dev->nvr.regs[reg]        = val;
            break;

        case MM67_RSTCTR:
            if (val == 0xff)
                mm67_reset(&dev->nvr);
            break;

        case MM67_RSTRAM:
            if (val == 0xff) {
                for (uint8_t i = MM67_AL_MSEC; i <= MM67_AL_MON; i++)
                    dev->nvr.regs[i] = RTC_BCD(0);
                dev->nvr.regs[MM67_DOW] = RTC_BCD(1);
                dev->nvr.regs[MM67_DOM] = RTC_BCD(1);
                dev->nvr.regs[MM67_MON] = RTC_BCD(1);
                if (dev->year != -1) {
                    val = (dev->flags & FLAG_YEAR80) ? 0 : 80;
                    if (dev->flags & FLAG_YEARBCD)
                        dev->nvr.regs[dev->year] = RTC_BCD(val);
                    else
                        dev->nvr.regs[dev->year] = val;
#ifdef MM67_CENTURY
                    dev->nvr.regs[MM67_CENTURY] = 19;
#endif
                }
            }
            break;

        case MM67_STATUS: /* STATUS (RO) */
            break;

        case MM67_GOCMD:
            isartc_log("RTC: write gocmd=%02x\n", val);
            break;

        case MM67_STBYIRQ:
            isartc_log("RTC: write stby=%02x\n", val);
            break;

        case MM67_TEST:
            isartc_log("RTC: write test=%02x\n", val);
            break;

        case MM67_AL_MSEC:
            dev->nvr.regs[reg] = val & 0xf0;
            break;

        case MM67_AL_DOW:
            dev->nvr.regs[reg] = val & 0x0f;
            break;

        default:
            dev->nvr.regs[reg] = val;
            break;
    }
}

/************************************************************************
 *                                                                      *
 *            Generic code for all supported chips.                     *
 *                                                                      *
 ************************************************************************/

/* Initialize the device for use. */
static void *
isartc_init(const device_t *info)
{
    rtcdev_t *dev;
    int       is_at = IS_AT(machine);
    is_at           = is_at || !strcmp(machine_get_internal_name(), "xi8088");

    /* Create a device instance. */
    dev = (rtcdev_t *) malloc(sizeof(rtcdev_t));
    memset(dev, 0x00, sizeof(rtcdev_t));
    dev->name     = info->name;
    dev->board    = info->local;
    dev->irq      = -1;
    dev->year     = -1;
    dev->nvr.data = dev;
    dev->nvr.size = 16;

    /* Do per-board initialization. */
    switch (dev->board) {
        case ISARTC_EV170: /* Everex EV-170 Magic I/O */
            dev->flags |= FLAG_YEAR80;
            dev->base_addr   = device_get_config_hex16("base");
            dev->base_addrsz = 32;
            dev->irq         = device_get_config_int("irq");
            dev->f_rd        = mm67_read;
            dev->f_wr        = mm67_write;
            dev->nvr.reset   = mm67_reset;
            dev->nvr.start   = mm67_start;
            dev->nvr.tick    = mm67_tick;
            dev->year        = MM67_AL_DOM; /* year, NON STANDARD */
            break;

        case ISARTC_DTK: /* DTK PII-147 Hexa I/O Plus */
            dev->flags |= FLAG_YEARBCD;
            dev->base_addr   = device_get_config_hex16("base");
            dev->base_addrsz = 32;
            dev->f_rd        = mm67_read;
            dev->f_wr        = mm67_write;
            dev->nvr.reset   = mm67_reset;
            dev->nvr.start   = mm67_start;
            dev->nvr.tick    = mm67_tick;
            dev->year        = MM67_AL_HUNTEN; /* year, NON STANDARD */
            break;

        case ISARTC_P5PAK: /* Paradise Systems 5PAK */
        case ISARTC_A6PAK: /* AST SixPakPlus */
            dev->flags |= FLAG_YEAR80;
            dev->base_addr   = 0x02c0;
            dev->base_addrsz = 32;
            dev->irq         = device_get_config_int("irq");
            dev->f_rd        = mm67_read;
            dev->f_wr        = mm67_write;
            dev->nvr.reset   = mm67_reset;
            dev->nvr.start   = mm67_start;
            dev->nvr.tick    = mm67_tick;
            dev->year        = MM67_AL_DOM; /* year, NON STANDARD */
            break;

        case ISARTC_VENDEX: /* Vendex HeadStart Turbo 888-XT RTC */
            dev->flags |= FLAG_YEAR80 | FLAG_YEARBCD;
            dev->base_addr   = 0x0300;
            dev->base_addrsz = 32;
            dev->f_rd        = mm67_read;
            dev->f_wr        = mm67_write;
            dev->nvr.reset   = mm67_reset;
            dev->nvr.start   = mm67_start;
            dev->nvr.tick    = mm67_tick;
            dev->year        = MM67_AL_DOM; /* year, NON STANDARD */
            break;

        default:
            break;
    }

    /* Say hello! */
    isartc_log("ISARTC: %s (I/O=%04XH", info->name, dev->base_addr);
    if (dev->irq != -1)
        isartc_log(", IRQ%i", dev->irq);
    isartc_log(")\n");

    /* Set up an I/O port handler. */
    io_sethandler(dev->base_addr, dev->base_addrsz,
                  dev->f_rd, NULL, NULL, dev->f_wr, NULL, NULL, dev);

    /* Hook into the NVR backend. */
    dev->nvr.fn  = (char *) info->internal_name;
    dev->nvr.irq = dev->irq;
    if (!is_at)
        nvr_init(&dev->nvr);

    /* Let them know our device instance. */
    return ((void *) dev);
}

/* Remove the device from the system. */
static void
isartc_close(void *priv)
{
    rtcdev_t *dev = (rtcdev_t *) priv;

    io_removehandler(dev->base_addr, dev->base_addrsz,
                     dev->f_rd, NULL, NULL, dev->f_wr, NULL, NULL, dev);

    free(dev);
}

static const device_config_t ev170_config[] = {
  // clang-format off
    {
        "base", "Address", CONFIG_HEX16, "", 0x02C0, "", { 0 },
        {
            { "240H", 0x0240 },
            { "2C0H", 0x02c0 },
            { ""             }
        },
    },
    {
        "irq", "IRQ", CONFIG_SELECTION, "", -1, "", { 0 },
        {
            { "Disabled", -1 },
            { "IRQ2",      2 },
            { "IRQ5",      5 },
            { "IRQ7",      7 },
            { ""             }
        },
    },
    { "", "", -1 }
  // clang-format on
};

static const device_t ev170_device = {
    .name          = "Everex EV-170 Magic I/O",
    .internal_name = "ev170",
    .flags         = DEVICE_ISA,
    .local         = ISARTC_EV170,
    .init          = isartc_init,
    .close         = isartc_close,
    .reset         = NULL,
    { .available = NULL },
    .speed_changed = NULL,
    .force_redraw  = NULL,
    .config        = ev170_config
};

static const device_config_t pii147_config[] = {
  // clang-format off
    {
        "base", "Address", CONFIG_HEX16, "", 0x0240, "", { 0 },
        {
            { "Clock 1", 0x0240 },
            { "Clock 2", 0x0340 },
            { "" }
        },
    },
    { "", "", -1 }
  // clang-format on
};

static const device_t pii147_device = {
    .name          = "DTK PII-147 Hexa I/O Plus",
    .internal_name = "pii147",
    .flags         = DEVICE_ISA,
    .local         = ISARTC_DTK,
    .init          = isartc_init,
    .close         = isartc_close,
    .reset         = NULL,
    { .available = NULL },
    .speed_changed = NULL,
    .force_redraw  = NULL,
    .config        = pii147_config
};

static const device_config_t p5pak_config[] = {
  // clang-format off
    {
        "irq", "IRQ", CONFIG_SELECTION, "", -1, "", { 0 },
        {
            { "Disabled", -1 },
            { "IRQ2",      2 },
            { "IRQ3",      3 },
            { "IRQ5",      5 },
            { ""             }
        },
    },
    { "", "", -1 }
  // clang-format on
};

static const device_t p5pak_device = {
    .name          = "Paradise Systems 5-PAK",
    .internal_name = "p5pak",
    .flags         = DEVICE_ISA,
    .local         = ISARTC_P5PAK,
    .init          = isartc_init,
    .close         = isartc_close,
    .reset         = NULL,
    { .available = NULL },
    .speed_changed = NULL,
    .force_redraw  = NULL,
    .config        = p5pak_config
};

static const device_config_t a6pak_config[] = {
  // clang-format off
    {
        "irq", "IRQ", CONFIG_SELECTION, "", -1, "", { 0 },
        {
            { "Disabled", -1 },
            { "IRQ2",      2 },
            { "IRQ3",      3 },
            { "IRQ5",      5 },
            { ""             }
        },
    },
    { "", "", -1 }
  // clang-format on
};

static const device_t a6pak_device = {
    .name          = "AST SixPakPlus",
    .internal_name = "a6pak",
    .flags         = DEVICE_ISA,
    .local         = ISARTC_A6PAK,
    .init          = isartc_init,
    .close         = isartc_close,
    .reset         = NULL,
    { .available = NULL },
    .speed_changed = NULL,
    .force_redraw  = NULL,
    .config        = a6pak_config
};

/* Onboard RTC devices */
const device_t vendex_xt_rtc_onboard_device = {
    .name          = "National Semiconductor MM58167 (Vendex)",
    .internal_name = "vendex_xt_rtc",
    .flags         = DEVICE_ISA,
    .local         = ISARTC_VENDEX,
    .init          = isartc_init,
    .close         = isartc_close,
    .reset         = NULL,
    { .available = NULL },
    .speed_changed = NULL,
    .force_redraw  = NULL,
    .config        = NULL
};

static const device_t isartc_none_device = {
    .name          = "None",
    .internal_name = "none",
    .flags         = 0,
    .local         = 0,
    .init          = NULL,
    .close         = NULL,
    .reset         = NULL,
    { .available = NULL },
    .speed_changed = NULL,
    .force_redraw  = NULL,
    .config        = NULL
};

static const struct {
    const device_t *dev;
} boards[] = {
    // clang-format off
    { &isartc_none_device },
    { &ev170_device       },
    { &pii147_device      },
    { &p5pak_device       },
    { &a6pak_device       },
    { NULL                },
    // clang-format on
};

void
isartc_reset(void)
{
    if (isartc_type == 0)
        return;

    /* Add the device to the system. */
    device_add(boards[isartc_type].dev);
}

const char *
isartc_get_internal_name(int board)
{
    return device_get_internal_name(boards[board].dev);
}

int
isartc_get_from_internal_name(char *s)
{
    int c = 0;

    while (boards[c].dev != NULL) {
        if (!strcmp(boards[c].dev->internal_name, s))
            return c;
        c++;
    }

    /* Not found. */
    return 0;
}

const device_t *
isartc_get_device(int board)
{
    return (boards[board].dev);
}
